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AQUACHIRAL aims to explore chirality in aqueous solutions using advanced photoelectron spectroscopy techniques. By combining liquid-microjet photoelectron spectroscopy with photoelectron circular dichroism, the project seeks to gain insights into chiral interactions and chemical reactions in water.
Most chemical reactions in lifeforms take place in aqueous environments and probing biochemical molecules and their reactions in the aqueous phase is indispensable for advancing fundamental and applied science.
Equally, intermolecular effects involving chiral complexes are highly relevant to life sciences, where hydration and chiral recognition are fundamental biochemical processes, typically occurring at aqueous interfaces.
All of these processes are driven by electronic structure interactions…
MAX-PLANCK-GESELLSCHAFT ZUR FORDERUNG DER WISSENSCHAFTEN EV
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